Robots: Chaos Control

Walking, swallowing, respiration and many other key functions in humans
and other animals are controlled by Central
Pattern Generators (CPGs). In essence, CPGs are small, autonomous
neural networks that produce rhythmic outputs, usually found in animal's
spinal cords rather than their brains. Their relative simplicity and
obvious success in biological systems has led to some success
in using CPGs in robotics. However, current systems are restricted
to very simple CPGs (e.g., restricted to a single walking gait). A
recent breakthrough at the BCCN
at the University of Göttingen, Germany has now allowed to achieve
11 basic behavioral patterns (various gaits, orienting, taxis,
self-protection) from a single CPG, closing in on the 10–20 different
basic behavioral patterns found in a typical cockroach. The trick: Work
with a chaotic, rather than a stable periodic CPG regime. For more on
CPGs, listen to the latest episode of the Robots
podcast on Chaos Control, which interviews Poramate
Manoonpong, one of the lead researchers in Göttingen, and Alex Pitti from the University of Tokyo who uses chaos
controllers that can synchronize to the dynamics of the body they are
controlling.